Method of making measuring tapes



May 24, 1949. A. w. KEUFFEL METHOD OF MAKING MEASURING TAPES 3 Sheets-Sheet 1 Original Filed Nov. 11, 1942 INVENTOR ADOLF W KEUFFEL ATT NEY

May 24, 1949. w. KEUFFEL METHOD OF MAKING MEASURING TAPES 3 Sheets-Sheet 2 Original Filed Nov. 11, 1942 uni QR May 24-, 1949. A. w. KEUFFEL 2,471,329

METHOD OF MAKING MEASURING TAPES Original Filed Nov. 11, 1942 3 Sheets-Sheet 3 W6. 5 2kg) INVENTOR ADOLF W. KEUFFEL BY 3 W Patented May 24, 1949 METHOD OF MAKING MEASURING TAPES Adolf W. Keuflel, Essex Fells, N. J., assignor to Keuffel & Esser Company, Hoboken, N. J., a corporation of New Jersey Original application November 11, 1942, Serial No.

465,286. Divided and. this application September 4, 1948, Serial No. 47,905

2 Claims. 1

This invention relates to a method and apparatus for preparing measuring tapes, rules and other scales of the kind used by engineers and surveyors, also carpenters, builders, carpet layers and others to measure distances. either horizontal or vertical, although not so limited. The invention is particularly suitable for preparing a steel measuring tape of the type described and claimed in application Serial Number 690,064 filed September 19, 1933, entitled Measuring tapes, issued as Patent No. 2,089,209 on August 10, 1937. Application Serial Number 157,944 filed August 7, 1937, issued as Patent No. 2,303,368 on December 1, 1942 relates to a method and apparatus-for making this tape. This application is a division of copending application Serial Number 465,286, filed November 11, 1942.

Heretoiore, measuring tapes have been made either of woven fabric or of a ribbon of steel. Fabric tapes are apt to be inaccurate since they stretch in use and are rapidly worn out if subjected to hard usage. Steel tapes are preferred but their surface soon becomes worn and rusty rendering the markings thereon diflicult to read, especially out of doors and in darkened localities, because of the lack of contrast 'between characters and background. Moreover, the numerals and subdivisions of the scale representing units of lineal measure and fractions thereof have heretofore been created by an etching process on the surface of the steel tape or by electro-plating. To create the markings on the steel tape by means of etching, the superficial structure or background of the steel is eaten away by an acid while portions of the surface are protected against the acid to form the markings of scale and numerals. The etching of the background along the longer subdivisions of the scale and such numerals as 1 and 4 weakens the tape in a transverse line extending substantially wholly across the tape along side of a relatively thicker portion forming, in effect, a rigid bar. After such a tape has been in use and has become oxidized, the etched portions are further weakened and, upon bending, frequently break at such a subdivision so that patching or repairing of broken tapes is a frequent necessity. It is not only difficult to repair a steel tape and maintain its true length, but where the repairs have been made, the markings on the surface of the tape are obliterated.

It has been heretofore proposed to avoid the weakening of the metal through "etching, by electro-plating markings and/or background on the steel tape as a base. The metal used in the electro-plating has usually been nickel and an attempt 'at contrast has been made by employing bright and black nickel. Experience has shown, however, that such nickel deposit offers practically no contrast. Thus there has been resented all of the objections sought to be avoided and processes have been involved which are both costly and complicated.

The present invention has for its objects to provide a process which avoids the weakening of a steel tape by etching; protects the surface of a flexible or inflexible metal strip against corrosion; afiords a contrast between the background and the markings as an aid to reading the scale in darkened localities; permits of a contrast between the markings of, say, units and fractions of units of linear measure in the interest of a celerity of reading and protects the markings.

Another object resides in providing an apparatus with which the process may be expeditiously carried on.

A further object resides in providing coating compositions which permanently adhere to the metal base, can be printed upon and withstand the usual wear to which such tapes are subjected.

In carrying the invention into efi'ect, it is preferred to coat the cleaned surface of a flexible or inflexible metal ribbon or strip, for instance, a steel tape, after certain pretreating steps, with a coating or film of preferably a light or light reflecting color, such as white. Hereinafter all such flexible or inflexible metal strips, which may be steel, brass or any other suitable metallic material and which have a scale or scales on the surface thereof, will be referred to, for convenience, as tapes. The invention will be described with respect to a steel tape but is to be understood that it is equally applicable to a flexible or inflexible ribbon or bar of any metallic material, referred'to herein generically as a metallic strip.

The strip is coated upon the upper and preferably also thelower surfaces and along both edges with a protective film of a composition that when hardened or dried will retain suitable flexible characteristics, it being found that such a complete sheath around'a flexible tape, for instance, resists the strains and stresses set up in the film when the tape is bent, and such strains and stresses do not rupture or break the film away from the steel or other flexible metal. The coating is flexible enough to withstand bending and printed thereon in the same color. The numerals representing the units of lineal measure may be imprinted in the same colon.oricrconvenience in reading, in still another color, say, red, to contrast with both the backgroundand. thescale graduations. Superimposedvupon .the inner. or base coating and the markings is an outer protective transparent coatingh ndedtog the inner coating, through which themarkings are iclearly,

visible. Another object of the invention is a method b which a wear-resisting finish of the character described may be applied to metal strips which will not be deleteriouslyafiected by the constant flexing,:saypofafiapem 'lio' this end, an opaque film of predetermin'ed characteristics :is caused to be bonded to' the metalE-stripand.,the numerals and other indicia; printedi nonathemtap'ezare protected by I an overrcoatingzofg fort instance, a translucent or transparent filmzof Lsuch characteristics as do not.produce-anyznndesirablareaction between the two coatings.

. The inventionalsaseeks'toprovide certain new andluseful compositionsmhich--can: be employed in the process:herein; -toe..produce. a tape of the characteristics:describedhereinuand also in the said patentrin-;which. suchctapes .are claimed. ;These.oand other.obiectsmf the invention and the. means,forntheiretattainment will be more apparent from .thegfollowingzdetailed description taken in :conneotion' with -themaccompanying drawings, illustrating... azpreferred embodiment thereof, and in which: a V Figure laista-ryiew showing,,.in plan, a fragmentary portionpf .a meas.uring;tape produced in accordance with the process of ,thisinvention Figure 21s,altransversesectional view taken in the plane.indicated;hyrthejinewz+2, of Figure, l, lookingin the .dil' qtionnf th arrows; Fi ur 3 is a dia rammat cwviewof n pp ratus that may be employed in this process, for cleaning the meta l st ip p p at ry t app yingthe base coat Fig 418a; ratus that may applying the base dry g. rha in ii; 1. i .b Figure 5 is a diagrammatic view, of an apparatus that may be employed in this process for applying the indicla comprising vgraduations, numerals, and the like to=the coated metallic strip;

Figure, 6 isagdiagrammatic view of an apparatus that. may be employed in this process for applying the top oriovercoat to the coated printed metallic strip and drying this last applied coating; Figures 7, 9.and1'0 are diagrammatic views of apparatus that may be used in conjunction with part of the apparatus illustrated in Figure 4 for applying thebase coat or that shown in Figure 6 for applying the top coat;

.7 Figure 8 is atsectionaliview along the line 8-8 of Figure 'HOoking-inthe direction-0f the arrows; Figure 11 isa view 'in'section corresponding generally torFigurezai but showing the details for theapositive let off and overrun take-up; and

Figure 12 is a view in section along the line I2+I2 of Figure 11." i; A strip. :of. some suitable tin to a metallic strip and metal forming a tape is indicated at -5 in Figure 2. Superimposed upon all surfaces of the strip 5 is a ground coating 1 of some appropriate material, i. e., a pigmented film such as enamel, lacquer or the like, which will form a firm bond with the metal, and which film, When dry, will retain a ,desired; degree of flexibility-H This coating, in the preferred embodiment, completely surrounds the metal strip so that when the strip bends, it will conform thereto and be unaffected thereby.

The background formed by this ground coating is conveniently, white in color and the scale graduations, .both the unit graduations 9 and the fraction graduations- III, are imprinted thereon in a contrasting color, such as black.

Inthe: illustrated embodiment, the scale is subdivided into rnarkings representing feet and inches and the numerals representing inches are also imprinted in black, as at I l The units of lineal measure, in this instance, feet, may be imprinted in still anothencontrastin color, say, red,.as..indicated. at,,l3 and, in. View of. the fact thatthe background is of a contrasting color, smaller numerals 1 5, also may be imprinted in red along the scalebetween the large numerals l3,.so that the, reading in unitsand fractions may be readily made.

, A top coating 8, of a clear transparent typepis then applied over the facingand in fact, completely surrounds the-coating so as to protect the printed graduations, and. the numbers and provide a wear-resistingfinish, i. q

While various types of coatings may be availed of for the .purpose specified,,it has been found :desirableto use forthe ground coat an opaque composition,.,f0If.ih$tanQe, an namel or equ v lent material having .the c'apa city to bond with metal, say, steel. The surface of the strip. 5 is first preparedby a suit able process to cause it to be more receptive to ,thecoating. In the case of steel, this n0ton1y igives arustproof finish to the surface of the steehbut valsopreparesthe steel so that, a subsequent, finish, such as. an, enamel, will be able to firmly bond or,c adhere to the surface of the steel, .Brass, may, if desired, be given a, wellknown cyanide treatment which causes the, surface to be more receptive to the enamel and form a :betterbpnd therewith than untreated brass, Inzthe; preferred embodime as nowpracticed, apigmented composition, such as enamel, preferably ,white,, is applied ,to the prepared metal strip. ,Thisfirst coating is. designated as the ground coatorbasetoat.

After the ground coat has dried, the indicia, graduations v5'! andilland numbers I 3, l5 are then printed on the :ground coat 1. by means of the transfenof .a special printing. ink ,from .dies in such a way that thegraduations formed on the tape may be the exact length. The ink, which it is preferred to use, has the property of biting in and embedding itself in the ground coat and yet is not softenedorattacked by the solvents of the top coating and thus the distortiongand shifting of the .graduations isprevented-during manufacture. The printing dies, force, the ink forming the characters into the groundcoat, to some extentat; least.;.I t.is desirable.that the indicia be, embedded in the'ground coat so that the surface of. the ink markings and the surface of the ground coat lieinsubstantially .one plane and present a smooth'surface without projections formed by the ink of the..-impress'ions.- Thus where the indicia areimpressed by dies, decalcomania, etc., thelink maybe permitted to dry to a predetermined degree, then preferably heated to a.predetermineddegreeiand then theimprinted tape subjected .to pressure "as by being passed between pressure .rollers.

A top coatings of a clear transparent :type is then applied over the facing comprised of the ground coat and indiciato protect the-printed graduations and the numbers, and ;in -this .way a wear-resisting finish is .appliedto the :tape.

it is preferred that=theeground=coat and the top coat have differentcharacteristics s'otthatthe ground coat will not :be affected by :the solvent action of the top coating =subsequently applied. Were a top coat of the same characteristic as the ground coat used, as, for instance cellulose compositions, the top coat would "tend to exert itssolvent action on the ground coat, causing the shifting of theprinted graduations, thus caus-v ing the graduations to become wavy and actually afiecting their accuracy.

For the ground coat, either of the following two types of materials is chosen: 7

(l) A synthetic resin-composition-comprising for example phenol-formaldehydepr alkyd resin.

(2) A lacquer composition comprising cellulose esters.

It has been foundmost practical to use type No. 1 as the ground'coat and type No. 2 as the top coat although these may be reversed or both coats may have similar bases. In either case, the ground coat is pigmentedand the top coat is transparen. Both of the compositions have an elastic limit well within the elastic limit of steel. Thus the finishing materials are of a very fiexible nature which will stand up under continuous flexing of the metal tape as, for instance, caused by the unwinding and rewinding oi the tape in and out of its case during use. The finish also has perspiration'resisting properties, that is, it is not afiectedby'the action of the dializing perspiration and transmittedto-the tape by the hands of the user. The finish does not lose its property of adhesion tothe steel nordoesit break down under the severest handling. It withstands liquids ordinarily corrosive .to metal tapes such as marsh'water, salt water, crude oils; etc.

iype No. l, particularly suitable forthe base coat, may be a composition with an oil modified phenol formaldehyde or alkyd resin 'coloredwhlte by a titanium oxide pigment and dissolved .in suitable solvents for the. resin. If desired, metallic salt catalysts may also be incorporated to hasten drying. The resulting enamel vehicle tends to form surface coats of ,grea flexibility, durability and good adhesion to most surfaces. This enamel needs no priming coats and dries with a smooth, glossy surfaceideally adapted for the purpose at hand. On this can be used the printing ink aforesaid which may resoftenthe enamel film. When the ink is dry the wholeis coated with a non-oxidizing, flexible film consisting of a tough nitrocellulose ilacquer giving a permanently flexible filmxoverthe entire surface. Forthis top coating, .a lacquer with a cellulose ester base, plasticizersand:solvents, which do not affect the base coat, maybe employed. The selection of the solvents is important "because such solvents must not dissolve to any appreciable extent either the base coat .or the ink. Since the base' coat is generally bakedfits solubility is, to somexextent,reduced and a test will determine whether 'the'ltop coat will dissolve the base coat afterthe heat treatment;

In practicin this/process, it' is possible "to choose a'WhitegrOund coat which willnot discolor organic acids commonly found in a with age and aexposure ato :light and a'ttop (coating'whichtis clear, transparent and .colorlessiand permits "the indicia to be clearly visible there.- through.

The materials selected areadapte-d for application to thetape-by various methods, sucheas bypassing over a roller coating machine which, coats one or bothfaces at a time, bysprayinE or by direct immersion and :withdrawalrfrom tthe; bath. 'The'latter methodforms the subject matter -ofapplication .Serial Number 157,944, :filed August'l, 1937, issued as Patent .No. 2,303,368s0n December 1,1942. Acomplete envelope orjsleeve is formed aroundthev entire strip, notonly when the first coat for ground coat'is 'appliedtbut also after the i-graduations and numbers are printed on the groundcoat. :Because .of thefact-thazt the: solvents inthe finishing material used for the top-coat do not affect theground. coat=orlthefink used "for the gra-duations and numbers, the rtop coat -'may also be applied by direct immersion and withdrawal. Preferably, also in theapplication-of-both coatings the'tape is passedrthrough the bathat such aslow rate of-speedthat :the composition has time to set at the pointof emergence.

Subsequentto each application of coatingccomposition, the film is permitted to dry or': may the. baked for a period of time depending uponxthe characteristics of the composition.

With such materials of the character described, it has-been found preferable to drythe coating ofsynthetic composition (type No. 1) -.by.heat= ing or'baking thecoated strip at approximately a'temperature of from about F. .to about 240 F. while the coating ofcellulosederivative (type No. 2) will dry satisfactorily 'in 'the :air, although, in the interest of rapid drying, this coating may also be dried at'higher temperatures.

The details of the process andsthe apparatus. used inconnectionwithcarrying out thiszinvention' isbest described in connection :with the:a'c-' companying drawings andreierring particularly to Figure 3, the reference numeral A'refers t'o a rolloimetaltape. Usually these rolls. are-several 'hun-dred feet in length, and for'making steel tapes are strips of spring steel commonlyused for-this purpose. As illustrated in Figure-Bthe supply roll ofthe metallic strip forming thetape may be unwound by passing the strip of metal through a benzine wiper to remove the protective grease film and any surface dirt thereon; The .tape is then conducted through a plurality of solutions to further cleanse the tape and '.remove all foreign matter therefrom in order that a perfectly clean strip of metal may be obtained which will firmly bond with the coating composition to be applied. Specifically, the tape after the benzine wipe is passed through an alkali cleaner followed by a water wash which inturn is followed by a cyanide wash that is removed'zby passing the tape through a quantity of clear water. This removes all of the principal metallic oxides, etc. However, any residual oil or grease that may still be on the tape must be removed and this is accomplished by passing the tape through an organic solvent.

It is extremely important that the tapeprepared according to the teachings of this invention-shall be able to withstand corrosion, particularly when the applied coatings are scratched. It has therefore been found advisable to pass the tape through a solution of an agent which-will form a rust-proofing coating thereon. The treatment "with "such an agent is known as Bonderlzing and comprises subjecting the cleaned metal to the action of various salts comprising phosphates. Among the well known processes for accomplishing this result are those disclosed in the following patents: 1,069,903 dated August 12, 1913, issued to Richards; 1,167,956 dated January 11, 1916, issued to Allen; 1,206,075 dated November 28, 1916, issued to Allen; 1,291,352 dated January 14, 1919, issued to Allen; 1,341,100 dated May 25, 1920, issued to Allen; and 1,842,085 dated January 19, 1932, issued to Green and Jones, which disclose various phosphate and phosphoric acid and other treatments applied to the surface of metals for making them responsive to receiving coatings and also rustproofing the metals. After the Bonderizing treatment the tape is washed, dried and Wound up on a roll B, ready for the subsequent treatment. While Figure 3 illustrates the tape as passing through the several treatments continuously it may be found advisable to pass the tape through one or more at a time and then rewind it before continuing the cleansing treatment. Some of the steps may be omitted or the relative order varied as will be evident.

One or more rolls of the chemically cleaned, rustproofed, strips is transferred to the base coating apparatus illustrated in one embodiment in Figure 4.

The roll B may be positioned on a shaft adjacent a plurality of other rolls. As the tape or tapes are withdrawn from the roll B they are carried over a guide roll 2, from which they are directed to a tank 4, which holds a quantity of base coating composition 6. The tape is guided through the coating composition by a roll 8 mounted on a shaft within the bath. To supply the coating composition to the tank 4, a reserve container I provided With a. valved outlet l2, may be arranged about the tank 4.

It has been found that a coating composition which fills the requirements heretofore set forth is a pigmented, synthetic resin, coating compo sition in which the resin may be any of the Well known types, as for example, phenol formaldehyde, alkyd, etc., either normal or modified with oils, as for example, drying oils. One of the preferred compositions which has been successfully employed, has the following composition:

The solvent, based on the total composition, may comprise about 30% of aliphatic petroleum hydrocarbon such as mineral spirits with about of aromatic hydrocarbons, as for example, turpentine, turpene, dipentine, toluol, benzol, xylol and the like.

The composition should preferably also include metallic dryers, such as oil soluble salts of cobalt, manganese and lead in the proportion of a fraction of a per cent of the solid resin.

It has been found that coating compositions of the type above described are particularly useful for forming the ground or base coat. When a phenol aldehyde resin in employed, the coating will, of course, be thermal setting, and the subsequent treatment should involve baking the composition so as to permanently set it and bond it to themetal. While the above described com- 8. positions have been found most suitable, it is possible to make certain modifications in this composition, within the skill of those in this art, Without departing from the spirit and scope of this invention.

In the preferred embodiment of this invention the tape T is passed through the coating composition 6 at a very slow rate of speed. In commercial practice it has been found desirable to continuously withdraw the tape at a speed approximating a few inches per minute. In this manher the coating composition has an opportunity to set as the tape leaves the bath, and there is not the danger of the coating composition runhing on the tape to make it irregular or streaked. On the contrary, by passing the tape through the bath very slowly, the coating is very uniform. I

After the base coating composition has been applied, the tape is passed up to a heated zone in chamber M, that is in effect a vertical oven. In the chamber M the tape is passed countercurrent to a circulating heated gas such as air which takes up the solvents evaporated and bakes the s illustrated in Figure 4 a pump or fan 39 withdraws air from near the bottom of the chamber I i through a conduit H5, passes it through. heater 22 from which it is conducted back to the top of the chamber by a conduit 20. The temperature of th air is controlled by the heater 2:; and obviously the system must be bled from time to time or continuously and some fresh air substituted. Ordinarily leakage through the top inlet and outlets, etc. is sumcient. Preferably, the vertical oven is of quite substantial height in order that the slowly moving strips of coated metal will have an ample time to discharge all solvents, in the case of those coating compositions which require baking, to assume those temperatures neces ary to thermally set the resin.

After the tape is passed through the vertical oven in a time sufficient to accomplish the object above described, it passes over a guide roll it, to a second roller 26, and is wound up on the roll C. In a preferred modification the passage of the tape is accomplished by a compensated positive in feed with an over run take up. Specifically in the apparatus illustrated the roll B would be braked or have a friction let off. Roller 2 would be driven at a constant rate of speed and provided with means to prevent slipping on the roll. All of the other rolls serve simply as guide rolls and the reels on which the rolls of tape C are wound should have an over run drive. In this way the travel of the tape and the tension is constant.

Instead of employing the apparatus and process illustrated and described in connection with Figure 4., those shown in Figures '7, 8, 9 and 10 might be substituted.

The coated metal strips wound on the roll C can now be transferred to the apparatus shown in Figure 5, wherein the roll C of Figure 4 is designated as C. As the coated tape is withdrawn from the supply roll C, it passes to a device 39 for printing the numerals and indicia and from this goes through a drier to remove any solvent from the ink after which the tape may be rewound on the wind-up roll D. Instead of employing the continuous type of apparatus for .rinting the numerals and indicia as illustrated in Figure 5, the coated metal strips may be cut and the printing done by hand on printing machines as is Well known in applied to provide indicia comprising numerals and graduations, it should preferably sink into the surface of the Coating on the metal strips and form a perfect bond therewith. The extent to which the ink will imbed itself in the coating on the metal strips depends on a number of factors, including the character of the coating, as well as the character of the ink. An example of the printing ink which has been found satisfactory for the purpose is a printing ink of the oxidizing type having incorporated therein printing solvent, such as xylol, high boiling naphtha, toluol, benzol, or the equivalent to resoften parts of the coatings on the metal strips. An alternative ink comprises one with a resin base, with which is included a toning blue and milori blue, both pigments used in regular printing ink, together with a mixture of carbon black, cobalt and paste dryer. Whether or not the ink redissolves any of the base coating, the solvents are completely removed and the ink is firmly attached to the coating by passing the printed strips through the dryer, or its equivalent.

The printed strip is then transferred to the position indicated at D in Figure 6. From this supply roll D, the printed strip is passed through a bath of coating composition 42 in a receptacle 40 and guided therethrough by a guide roll 44.

The coating composition 42 is preferably of the type known as lacquer and should be clear, or at any rate, transparent. A composition suitable for this purpose has the following ingredients:

Parts by weight /2 second R. S. nitrocellulose 14 Dibutyl phthalate (plasticizer) 4.65 Secondary amyl acetate (solvent) 25 Various additional solvents, diluents, partial solvents and even non-solvents, comprising alcohol, amyl alcohol, ethyl acetate, toluol, mineral spirits, etc, to make 100 parts of lacquer.

The lacquer may be thinned by relatively de creasing the proportions of the cellulose ester and plasticizer to the solvents and diluents.

This lacquer is particularly useful as a top coat in this process, since after the pigmented coating has been set and dried, it will not redissolve when the lacquer is applied. If the lacquer contains solvents which, under the conditions of application will redissolve the pigmented coat or the ink, it would run and cover other portions of the strip, reducing the accuracy of the graduations as well as making them indistinct. Alternatively, the pigmented coating, when baked or otherwise made insoluble, does not limit the selections of solvents for the top coatn In Figure '7 is illustrated an alternative apparatus and method for applying either the base coat or the top coat. According to this method the chemically cleaned rolls of metal strip, with or without previous rust-proofing treatment, are mounted adjacent to each other on the shaft 5&3, from which they are withdrawn and passed over guide rollers 52, arranged so as to guide the tape along the relative paths as indicated in Figure 8. In this manner the tapes pass upwardly between the two spray nozzles 54, adapted to project a spray of the base coating composition on both sides of the tapes when they are in the two staggered rows as indicated in Figure 8.

Another alternative method for coating the tape is illustrated in Figure 9, wherein the roll of chemically cleaned metal strip B supplies the tape T which passes under the guide roller 68, from which it is guided upwardly between coating rollers 62, rotating with the tape in the direction indicated by the arrows. These coating rollers 62, are supplied with the coating composition 64 by means of intermediate rolls 6% which dip into the bath of coating composition 64 and move in contact with the coating rolls 62. As the rolls 66, rotating in the direction indicated :by the arrows, dip into the coating composition 64 the amount of material picked up on their surfaces is controlled by the doctor blades 68. This film of controlled thickness on the roll 66 is then transferred to the roll 62 which in turn applies it to the tape T.

A generally similar method of applying the base coating is illustrated in Figure 16 wherein the metal strip withdrawn from the roll B is guided by the roller 10 to a position between two coating rollers 12 that may be rotated in either direction but generally rotate in a direction opposite that in which the tape is traveling. Coa ing composition 14 is picked up by the rollers 12 which dip into the composition and the thickness of the film is controlled by the doctor blade it.

Several methods of applying this coating composition uniformly to one or both sides as well as the edges of the tape which are illustrated in connection with Figures 4, 7, 9 and 10 can be used not only for applying the base coating but also for applying the top coat as shown in Figure 6.

By following the teachings of this invention metal strips of the type used for measuring tapes and the like can be readily and completely coated in the manner described to produce a new and useful tape in a convenient and inexpensive manner.

While this invention has been described as to certain preferred embodiments thereof, these are to be considered as illustrative of the invention and not in limitation of it, the scope of the invention being set forth in the appended claims.

What is claimed is:

1. The method for making a coated metal measuring tape which comprises preparing a metal strip to receive a coating composition, passing the strip in contact with a roller which carries and applies to the strip a pigmented coating composition comprising a synthetic resin which will set while retaining its elasticity, passing the coated metal strip through a heated zone to remove the solvents permanently and set the coating, and applying indicia comprising numerals and graduations to the coated metal strip with an ink which will firmly bond with the coating.

2. The method for making a coated metal measuring tape which comprises preparing a metal strip to receive a coating composition, passing the strip in contact with a roller which carries and applies to the strip a pigmented coating composition comprising a synthetic resin which will set while retaining its elasticity, passing the coated metal strip through a heated zone to remove the solvents and permanently set the coating, applying indicia comprising numerals and graduations to the coated metal strip with an ink which will firmly bond with the coating and applying a top coat of a transparent coating composition to the printed coated strip.

ADOLF W. KEUFFEL.

No references cited.

Certificate of Correction Patent N 0. 2,471,329 May 24, 1949 ADOLF W. KEUFFEL It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows:

Column 7, line 40, for the word about read above and that the said Letters Patent should be read with this correction therein that the same may conform to the record of the case in the Patent Office. Signed and sealed this 17th day of January, A. D. 1950.

THOMAS F. MURPHY,

Assistant Oommz'ssioner of Patents. 

